BIM technology provided a comprehensive digital model of the project, enabling the construction team to visualize how different systems and components would fit together. Below are the key ways in which the BIM process helped the construction of the Abu Dhabi International Airport.

Clash Detection 

Creating BIM models allowed the design and construction teams to identify potential clashes between different building systems and components. By identifying these clashes early on, the project teams were able to resolve them even before construction began, reducing the risk of delays and costly rework. For example, the BIM process helped identify clashes between the airport's electrical systems and other building components, enabling the team to make necessary changes to prevent potential issues.

Coordination of Complex Systems

The extension of the Abu Dhabi International Airport involved the integration of multiple complex entities including the mechanical, electrical, and plumbing systems. BIM helped the construction team coordinate these effectively by creating a detailed digital BIM model of the project. This allowed the team to visualize how different systems and components would fit together, identifying potential design and construction issues and conflicts before construction began.

Improved Communication and Collaboration 

Implementing a BIM process provided a single platform for all stakeholders to access and work with the same project data. This improved communication and collaboration between different teams, including architects, engineers, contractors, and project owners. By improving collaboration, BIM helped reduce the risk of errors, conflicts, and delays. For example, BIM technology enabled the airport's project management team to access real-time updates on construction progress and identify potential issues, allowing them to take corrective action quickly.

Enhanced Construction Sequencing

BIM technology helped the construction team plan and optimize the construction sequence by creating a detailed digital model of the project. This allowed the team to visualize the construction sequence and identify potential issues. By optimizing the construction sequence, BIM helped the team use resources more efficiently, reducing the risk of delays and errors.

Cost Savings

By improving coordination, communication, and sequencing, the BIM process helped the construction team reduce the risk of errors, conflicts, and delays, ultimately leading to cost savings. For example, by identifying and resolving potential clashes and conflicts before construction began, BIM helped prevent costly rework and delays.

In Conclusion 

The successful implementation of BIM technology in the construction of Abu Dhabi International Airport serves as an example of the potential benefits of this technology in complex construction projects. As BIM technology continues to evolve and become more widely adopted in the industry, it is likely that it will play an increasingly crucial role in the construction of modern infrastructure projects